Generic/matrix evaluation of SV40 clearance by anion exchange chromatography in flow-through mode

The potential of viral contamination is a regulatory concern for continuous cell line‐derived pharmaceutical proteins. Complementary and redundant safety steps, including an evaluation of the viral clearance capacity of unit operations in the purification process, are performed prior to registration...

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Veröffentlicht in:	Biotechnology and bioengineering 2003-10, Vol.84 (2), p.179-186
Hauptverfasser:	Curtis, Sherrie, Lee, Kitty, Blank, Gregory S., Brorson, Kurt, Xu, Yuan
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals anion exchange chromatography Anions - chemistry Biological Products - isolation & purification Biotechnology - methods Cell Line Chromatography, Agarose Chromatography, Ion Exchange - methods DNA, Viral - analysis DNA, Viral - genetics DNA, Viral - isolation & purification Drug Contamination - prevention & control Electric Conductivity generic validation Hydrogen-Ion Concentration monoclonal antibodies Polymerase Chain Reaction Simian virus 40 Simian virus 40 - genetics Simian virus 40 - isolation & purification Simian virus 40 - metabolism Spectrophotometry, Ultraviolet SV40 virus clearance
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description	The potential of viral contamination is a regulatory concern for continuous cell line‐derived pharmaceutical proteins. Complementary and redundant safety steps, including an evaluation of the viral clearance capacity of unit operations in the purification process, are performed prior to registration and marketing of biotechnology pharmaceuticals. Because process refinement is frequently beneficial, CBER/FDA has published guidance facilitating process improvement by delineating specific instances where the bracketing and generic approaches are appropriate for virus removal validation. In this study, a generic/matrix study was performed using Q‐Sepharose Fast Flow (QSFF) chromatography to determine if bracketing and generic validation can be applied to anion exchange chromatography. Key operational parameters were varied to upper and lower extreme values and the impact on viral clearance was assessed using simian virus 40 (SV40) as the model virus. Operational ranges for key chromatography parameters were identified where an SV40 log10 reduction value (LRV) of ≥4.7 log10 is consistently achieved. On the basis of the apparent robustness of SV40 removal by Q‐anion exchange chromatography, we propose that the concept of “bracketed generic” validation can be applied to this and potentially other chromatography unit operations. © 2003 Wiley Periodicals, Inc. Biotechnol Bioeng 84: 179–186, 2003.
doi_str_mv	10.1002/bit.10746
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On the basis of the apparent robustness of SV40 removal by Q‐anion exchange chromatography, we propose that the concept of “bracketed generic” validation can be applied to this and potentially other chromatography unit operations. © 2003 Wiley Periodicals, Inc. 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Bioeng</addtitle><description>The potential of viral contamination is a regulatory concern for continuous cell line‐derived pharmaceutical proteins. Complementary and redundant safety steps, including an evaluation of the viral clearance capacity of unit operations in the purification process, are performed prior to registration and marketing of biotechnology pharmaceuticals. Because process refinement is frequently beneficial, CBER/FDA has published guidance facilitating process improvement by delineating specific instances where the bracketing and generic approaches are appropriate for virus removal validation. In this study, a generic/matrix study was performed using Q‐Sepharose Fast Flow (QSFF) chromatography to determine if bracketing and generic validation can be applied to anion exchange chromatography. Key operational parameters were varied to upper and lower extreme values and the impact on viral clearance was assessed using simian virus 40 (SV40) as the model virus. 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subjects	Animals anion exchange chromatography Anions - chemistry Biological Products - isolation & purification Biotechnology - methods Cell Line Chromatography, Agarose Chromatography, Ion Exchange - methods DNA, Viral - analysis DNA, Viral - genetics DNA, Viral - isolation & purification Drug Contamination - prevention & control Electric Conductivity generic validation Hydrogen-Ion Concentration monoclonal antibodies Polymerase Chain Reaction Simian virus 40 Simian virus 40 - genetics Simian virus 40 - isolation & purification Simian virus 40 - metabolism Spectrophotometry, Ultraviolet SV40 virus clearance
title	Generic/matrix evaluation of SV40 clearance by anion exchange chromatography in flow-through mode
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